View clinical trials related to Macular Edema.
Filter by:The study involves the enrollment of patients over 18 years of age with diabetic macular edema involving the center of the macula who have not already been given maximal laser treatment. Patients with one study eye will be randomly assigned (stratified by prior laser) with equal probability to one of five treatment groups: 1. Focal laser photocoagulation (modified ETDRS technique) 2. Posterior peribulbar injection of 40 mg triamcinolone (Kenalog) 3. Anterior peribulbar injection of 20 mg triamcinolone 4. Posterior peribulbar injection of 40 mg triamcinolone followed after one month by laser 5. Anterior peribulbar injection of 20 mg triamcinolone followed after one month by laser For patients with two study eyes (both eyes eligible at the time of randomization), the right eye (stratified by prior laser) will be randomly assigned with equal probabilities to one of the five treatment groups listed above. If the right eye was assigned to laser only, then the left eye will be assigned to one of the four triamcinolone groups above with equal probability (stratified by prior laser). If the right eye was assigned to receive triamcinolone, then the left eye will receive laser only. Triamcinolone acetonide will be the corticosteroid utilized in this study. The triamcinolone acetonide preparation to be used is Kenalog. Kenalog is manufactured by Bristol Myers Squibb and is approved by the Food and Drug Administration for intramuscular use for a variety of indications. Peribulbar injections of Kenalog have been used for a wide variety of ocular conditions, particularly uveitis and post-cataract extraction cystoid macular edema, for many years. Two different triamcinolone regimens will be assessed in the study: 40 mg injected posteriorly and 20 mg injected anteriorly. There is no indication of which treatment regimen will be better. Although the injection behind the eye is more common than the injection near the front of the eye, the injection near the front of the eye has less risk of injuring the eye. However, it is possible that the injection near the front of the eye may increase eye pressure more frequently. Little is known about which of the two injections decreases macular edema and improves vision more often. Patients enrolled into the study will be followed for three years and will have study visits 1 month, 2 months, 4 months, 8 months and annually after receiving their assigned study treatment. For the first 8 months of the study, patients should only be retreated with their randomized treatment. However, if the patient's visual acuity has decreased by 15 letters or more, then any treatment may be given at the investigator's discretion. After completion of the 8-month visit, treatment is at investigator discretion. The primary objective of this study is to obtain estimates of efficacy and safety outcomes for each of the treatment groups. These estimates will provide a basis for the sample size estimation and hypothesis generation in a phase III trial.
The study involves the enrollment of patients over 18 years of age with diabetic macular edema(DME). Patients with one study eye will be randomly assigned (stratified by visual acuity and prior laser) with equal probability to one of the three treatment groups: 1. Laser photocoagulation 2. 1mg intravitreal triamcinolone acetonide injection 3. 4mg intravitreal triamcinolone acetonide injection For patients with two study eyes (both eyes eligible at the time of randomization), the right eye (stratified by visual acuity and prior laser) will be randomly assigned with equal probabilities to one of the three treatment groups listed above. The left eye will be assigned to the alternative treatment (laser or triamcinolone). If the left eye is assigned to triamcinolone, then the dose (1mg or 4 mg) will be randomly assigned to the left eye with equal probability (stratified by visual acuity and prior laser). The study drug, triamcinolone acetonide, has been manufactured as a sterile intravitreal injectable by Allergan. Study eyes assigned to an intravitreal triamcinolone injection will receive a dose of either 1mg or 4mg. There is no indication of which treatment regimen will be better. Patients enrolled into the study will be followed for three years and will have study visits every 4 months after receiving their assigned study treatment. In addition, standard of care post-treatment visits will be performed at 4 weeks after each intravitreal injection.
This research is being done to look at the effects of an experimental drug called pegaptanib (also called Macugen) for the treatment of swelling in the retina (the light sensitive tissue in the back of the eye) that can occur after cataract surgery. Swelling in the retina can lead to blurry vision. The only treatment available for this condition is eye drops that decrease swelling in the back of the eye, but eye drops may not decrease the swelling in everyone. We want to see if pegaptanib can decrease swelling in the retina and improve vision in patients with swelling after cataract surgery.
To evaluate the effects of Intravitreal Bevacizumab in macular edema in retinal vascular occlusion.
This research is being conducted to look at the effects of an intraocular drug (pegaptanib, also called Macugen) for the treatment of swelling in the retina (the light sensitive tissue in the back of the eye) that often occurs following cataract surgery in patients with diabetic eye disease. Swelling in the retina can lead to blurry vision, and Macugen may reduce this swelling. Eyedrops that decrease inflammation also may help to stop some of the swelling. We are testing this drug (pegaptanib) to see if it can decrease swelling in the retina and improve vision in patients with diabetes who are having cataract surgery.
This study will evaluate the safety and efficacy of an intravitreal insert of fluocinolone acetonide for the treatment of diabetic macular edema.
The purpose of this study is to investigate if interferon beta is superior to the standard treatment with Methotrexate for the treatment of intermediate uveitis and macular edema.
This study will provide preliminary data on the dose and dose interval related effects of intravitreally administered Avastin on retinal thickness and visual acuity in subjects with Diabetic Macular Edema (DME) to aid in planning a phase 3 trial. In addition, this study will provide preliminary data on the safety of intravitreally administered Avastin in subjects with DME.
The study will evaluate the efficacy of prophylactic administration of the topical nonsteroidal anti-inflammatory drug (NSAID) ketorolac tromethamine 0.5% (Acular®) on cystoid macular edema (CME) in patients having undergone cataract surgery. CME is the most frequent cause of decreased vision after uncomplicated cataract surgery and can result in irreversible sight reduction. The investigation will involve a comparison arm and a treatment arm with both sets of patient populations being evaluated for CME with ophthalmologic examinations and optical coherence tomography (OCT) measurements. The objective is to elucidate the role of NSAID drops in preventing CME after cataract surgery.
Diabetic macular oedema is characterized by fluid accumulation in the retinal tissue from leaking retinal vessels, the capillaries. This state can lead to severe visual loss and blindness. According to basic physiologic rules several factors influence the fluid transport between the capillaries and the surrounding tissue. One of these factors is the balance between the large molecules within the vessel lumen and the retinal tissue. Some drugs change this balance, the osmotic balance, by moving the fluid from the tissue to the vessel lumen. In relation to diabetic macular oedema, treatment with such a drug potentially would reduce the retinal thickness because it extracts fluid from the retinal tissue. Glycerol has this potential. If reduction of the thickness with glycerol is confirmed, then it proves the significance of the osmotic balance in the basic nature of diabetic macular oedema. In this study we therefore examine the time dependent change in retinal thickness after glycerol intake by an instrument called optical coherence tomography (OCT). The participants drink glycerol and the thickness of the retina is then monitored closely by OCT during the following three hours. Since diabetic changes in the retina are focal pr. definition, the secondary purpose of the study is to find any regional differences in the response. The examinations are repeated at a second visit where the patient drink another dose of glycerol, because we also want to analyse for a dose dependent response. Which dose is given at each visit is randomised on beforehand. In addition to measuring the retinal thickness a variety of examinations are performed both before and during the study, e.g. blood samples and systemic blood pressure measurements.